/*############################################################################
  # Copyright (C) 2005 Intel Corporation
  #
  # SPDX-License-Identifier: MIT
  ############################################################################*/

#include <stdio.h>
#include <exception>

#include <algorithm>
#include "avc_spl.h"
#include "sample_defs.h"

namespace ProtectedLibrary {

AVCFrameInfo::AVCFrameInfo() {
    Reset();
}

void AVCFrameInfo::Reset() {
    m_slice = 0;
    m_index = 0;
}

AVC_Spl::AVC_Spl()
        : m_WaitForIDR(true),
          m_headers(),
          m_AUInfo(),
          m_currentInfo(nullptr),
          m_pLastSlice(nullptr),
          m_lastNalUnit(nullptr),
          m_currentFrame(),
          m_swappingMemory(),
          m_slicesStorage(),
          m_slices(),
          m_frame() {
    Init();
}

AVC_Spl::~AVC_Spl() {
    Close();
}

mfxStatus AVC_Spl::Init() {
    Close();

    m_pNALSplitter.reset(new NALUnitSplitter());
    m_pNALSplitter->Init();

    m_WaitForIDR = true;

    m_AUInfo.reset(new AVCFrameInfo());

    m_currentFrame.resize(BUFFER_SIZE);

    m_pLastSlice  = 0;
    m_lastNalUnit = 0;
    m_currentInfo = 0;

    m_slices.resize(128);
    memset(&m_frame, 0, sizeof(m_frame));
    m_frame.Data  = &m_currentFrame[0];
    m_frame.Slice = &m_slices[0];

    return MFX_ERR_NONE;
}

void AVC_Spl::Close() {
    m_pLastSlice  = 0;
    m_lastNalUnit = 0;
    m_currentInfo = 0;
}

mfxStatus AVC_Spl::Reset() {
    m_pNALSplitter->Reset();
    m_WaitForIDR  = true;
    m_lastNalUnit = 0;
    m_pLastSlice  = 0;
    m_currentInfo = 0;
    return MFX_ERR_NONE;
}

mfxU8* AVC_Spl::GetMemoryForSwapping(mfxU32 size) {
    if (m_swappingMemory.size() <= size + 8)
        m_swappingMemory.resize(size + 8);

    return &(m_swappingMemory[0]);
}

mfxStatus AVC_Spl::DecodeHeader(mfxBitstream* nalUnit) {
    mfxStatus umcRes = MFX_ERR_NONE;

    AVCHeadersBitstream bitStream;

    try {
        mfxU32 swappingSize   = nalUnit->DataLength;
        mfxU8* swappingMemory = GetMemoryForSwapping(swappingSize);

        BytesSwapper::SwapMemory(swappingMemory,
                                 swappingSize,
                                 nalUnit->Data + nalUnit->DataOffset,
                                 nalUnit->DataLength);

        bitStream.Reset(swappingMemory, swappingSize);

        NAL_Unit_Type uNALUnitType;
        mfxU8 uNALStorageIDC = 0;

        bitStream.GetNALUnitType(uNALUnitType, uNALStorageIDC);

        switch (uNALUnitType) {
            // sequence parameter set
            case NAL_UT_SPS: {
                AVCSeqParamSet sps;
                umcRes = bitStream.GetSequenceParamSet(&sps);
                if (umcRes == MFX_ERR_NONE) {
                    m_headers.m_SeqParams.GetHeader(sps.seq_parameter_set_id);
                    m_headers.m_SeqParams.AddHeader(&sps);

                    // Validate the incoming bitstream's image dimensions.
                    m_headers.m_SeqParams.GetHeader(sps.seq_parameter_set_id);

                    m_pNALSplitter->SetSuggestedSize(CalculateSuggestedSize(&sps));

                    if (umcRes != MFX_ERR_NONE)
                        return umcRes;
                }
                else
                    return MFX_ERR_UNDEFINED_BEHAVIOR;
            } break;

            case NAL_UT_SPS_EX: {
                AVCSeqParamSetExtension sps_ex;
                umcRes = bitStream.GetSequenceParamSetExtension(&sps_ex);

                if (umcRes == MFX_ERR_NONE) {
                    m_headers.m_SeqExParams.AddHeader(&sps_ex);
                }
                else
                    return umcRes;
            } break;

            // picture parameter set
            case NAL_UT_PPS: {
                AVCPicParamSet pps;
                // set illegal id
                pps.pic_parameter_set_id = MAX_NUM_PIC_PARAM_SETS;

                // Get id
                umcRes = bitStream.GetPictureParamSetPart1(&pps);
                if (MFX_ERR_NONE == umcRes) {
                    AVCSeqParamSet* pRefsps =
                        m_headers.m_SeqParams.GetHeader(pps.seq_parameter_set_id);

                    if (!pRefsps || pRefsps->seq_parameter_set_id >= MAX_NUM_SEQ_PARAM_SETS) {
                        pRefsps = m_headers.m_SeqParamsMvcExt.GetHeader(pps.seq_parameter_set_id);
                        if (!pRefsps || pRefsps->seq_parameter_set_id >= MAX_NUM_SEQ_PARAM_SETS) {
                            return MFX_ERR_UNDEFINED_BEHAVIOR;
                        }
                    }

                    // Get rest of pic param set
                    umcRes = bitStream.GetPictureParamSetPart2(&pps, pRefsps);
                    if (MFX_ERR_NONE == umcRes) {
                        m_headers.m_PicParams.AddHeader(&pps);
                    }

                    m_headers.m_SeqParams.SetCurrentID(pps.seq_parameter_set_id);
                }
            } break;

            // subset sequence parameter set
            case NAL_UNIT_SUBSET_SPS: {
                AVCSeqParamSet sps;
                umcRes = bitStream.GetSequenceParamSet(&sps);
                if (MFX_ERR_NONE != umcRes) {
                    return MFX_ERR_UNDEFINED_BEHAVIOR;
                }

                // decode additional parameters
                if ((AVC_PROFILE_MULTIVIEW_HIGH == sps.profile_idc) ||
                    (AVC_PROFILE_STEREO_HIGH == sps.profile_idc)) {
                    AVCSeqParamSet spsMvcExt;
                    AVCSeqParamSet* sps_temp = &spsMvcExt;

                    *sps_temp = sps;

                    m_headers.m_SeqParamsMvcExt.AddHeader(&spsMvcExt);
                }
            } break;

            // decode a prefix nal unit
            case NAL_UNIT_PREFIX: {
                umcRes = bitStream.GetNalUnitPrefix(&m_headers.m_nalExtension, uNALStorageIDC);
                if (MFX_ERR_NONE != umcRes) {
                    return MFX_ERR_UNDEFINED_BEHAVIOR;
                }
            } break;

            default:
                break;
        }
    }
    catch (const AVC_exception&) {
        return MFX_ERR_UNDEFINED_BEHAVIOR;
    }
    catch (...) {
        return MFX_ERR_UNDEFINED_BEHAVIOR;
    }

    return MFX_ERR_NONE;
}

mfxStatus AVC_Spl::DecodeSEI(mfxBitstream* nalUnit) {
    if (m_headers.m_SeqParams.GetCurrrentID() == -1)
        return MFX_ERR_NONE;

    AVCHeadersBitstream bitStream;

    try {
        mfxU32 swappingSize   = nalUnit->DataLength;
        mfxU8* swappingMemory = GetMemoryForSwapping(swappingSize);

        BytesSwapper::SwapMemory(swappingMemory,
                                 swappingSize,
                                 nalUnit->Data + nalUnit->DataOffset,
                                 nalUnit->DataLength);

        bitStream.Reset(swappingMemory, swappingSize);

        NAL_Unit_Type uNALUnitType;
        mfxU8 uNALStorageIDC = 0;

        bitStream.GetNALUnitType(uNALUnitType, uNALStorageIDC);

        do {
            AVCSEIPayLoad m_SEIPayLoads;

            bitStream.GetSEI(m_headers.m_SeqParams,
                             m_headers.m_SeqParams.GetCurrrentID(),
                             &m_SEIPayLoads);

            if (m_SEIPayLoads.payLoadType == SEI_RESERVED)
                continue;

            m_headers.m_SEIParams.AddHeader(&m_SEIPayLoads);
        } while (bitStream.More_RBSP_Data());
    }
    catch (...) {
        // nothing to do just catch it
    }

    return MFX_ERR_NONE;
}

AVCSlice* AVC_Spl::DecodeSliceHeader(mfxBitstream* nalUnit) {
    m_slicesStorage.push_back(AVCSlice());
    AVCSlice* pSlice = &m_slicesStorage.back();

    mfxU32 swappingSize   = nalUnit->DataLength;
    mfxU8* swappingMemory = GetMemoryForSwapping(swappingSize);

    BytesSwapper::SwapMemory(swappingMemory,
                             swappingSize,
                             nalUnit->Data + nalUnit->DataOffset,
                             nalUnit->DataLength);

    mfxI32 pps_pid = pSlice->RetrievePicParamSetNumber(swappingMemory, swappingSize);
    if (pps_pid == -1) {
        return 0;
    }

    AVCSEIPayLoad* spl = m_headers.m_SEIParams.GetHeader(SEI_RECOVERY_POINT_TYPE);

    if (m_WaitForIDR) {
        if (pSlice->GetSliceHeader()->slice_type != INTRASLICE && !spl) {
            return 0;
        }
    }

    pSlice->m_picParamSet = m_headers.m_PicParams.GetHeader(pps_pid);
    if (!pSlice->m_picParamSet) {
        return 0;
    }

    mfxI32 seq_parameter_set_id = pSlice->m_picParamSet->seq_parameter_set_id;

    if (NAL_UT_CODED_SLICE_EXTENSION == pSlice->GetSliceHeader()->nal_unit_type) {
        pSlice->m_seqParamSet = pSlice->m_seqParamSetMvcEx =
            m_headers.m_SeqParamsMvcExt.GetHeader(seq_parameter_set_id);

        if (NULL == pSlice->m_seqParamSetMvcEx) {
            return 0;
        }

        m_headers.m_SeqParamsMvcExt.SetCurrentID(pSlice->m_seqParamSetMvcEx->seq_parameter_set_id);
        m_headers.m_PicParams.SetCurrentID(pSlice->m_picParamSet->pic_parameter_set_id);
    }
    else {
        pSlice->m_seqParamSetMvcEx = m_headers.m_SeqParamsMvcExt.GetCurrentHeader();
        pSlice->m_seqParamSet      = m_headers.m_SeqParams.GetHeader(seq_parameter_set_id);

        m_headers.m_SeqParams.SetCurrentID(pSlice->m_picParamSet->seq_parameter_set_id);
        m_headers.m_PicParams.SetCurrentID(pSlice->m_picParamSet->pic_parameter_set_id);
    }

    pSlice->m_seqParamSetEx = m_headers.m_SeqExParams.GetHeader(seq_parameter_set_id);
    pSlice->m_dTime         = nalUnit->TimeStamp;

    if (!pSlice->DecodeHeader(swappingMemory, swappingSize)) {
        return 0;
    }

    if (spl && (pSlice->GetSliceHeader()->slice_type != INTRASLICE)) {
        m_headers.m_SEIParams.RemoveHeader(spl->GetID());
    }

    m_WaitForIDR = false;

    return pSlice;
}

AVCFrameInfo* AVC_Spl::GetFreeFrame() {
    return m_AUInfo.get();
}

void AVC_Spl::ResetCurrentState() {
    m_frame.DataLength         = 0;
    m_frame.SliceNum           = 0;
    m_frame.FirstFieldSliceNum = 0;
    m_AUInfo->Reset();
    if (m_slicesStorage.size() > 1) {
        m_slicesStorage.erase(m_slicesStorage.begin(), --m_slicesStorage.end());
    }
}

bool AVC_Spl::IsFieldOfOneFrame(AVCFrameInfo* frame,
                                const AVCSliceHeader* slice1,
                                const AVCSliceHeader* slice2) {
    if (frame && frame->m_index)
        return false;

    if ((slice1->nal_ref_idc && !slice2->nal_ref_idc) ||
        (!slice1->nal_ref_idc && slice2->nal_ref_idc))
        return false;

    if (slice1->field_pic_flag != slice2->field_pic_flag)
        return false;

    if (slice1->bottom_field_flag == slice2->bottom_field_flag)
        return false;

    return true;
}

inline bool IsSlicesOfOneAU(const AVCSliceHeader* pOne, const AVCSliceHeader* pTwo) {
    if (!pOne || !pTwo)
        return true;

    if (pOne->view_id != pTwo->view_id) {
        if (pOne->view_id < pTwo->view_id) {
            return true;
        }

        return false;
    }

    // this function checks two slices are from same picture or not
    // 7.4.1.2.4 part of AVC standart

    if ((pOne->frame_num != pTwo->frame_num) ||
        (pOne->first_mb_in_slice == pTwo->first_mb_in_slice) ||
        (pOne->pic_parameter_set_id != pTwo->pic_parameter_set_id) ||
        (pOne->field_pic_flag != pTwo->field_pic_flag) ||
        (pOne->bottom_field_flag != pTwo->bottom_field_flag))
        return false;

    if ((pOne->nal_ref_idc != pTwo->nal_ref_idc) &&
        (0 == std::min(pOne->nal_ref_idc, pTwo->nal_ref_idc)))
        return false;

    if ((pOne->pic_order_cnt_lsb != pTwo->pic_order_cnt_lsb) ||
        (pOne->delta_pic_order_cnt_bottom != pTwo->delta_pic_order_cnt_bottom))
        return false;

    if ((pOne->delta_pic_order_cnt[0] != pTwo->delta_pic_order_cnt[0]) ||
        (pOne->delta_pic_order_cnt[1] != pTwo->delta_pic_order_cnt[1]))
        return false;

    if (pOne->nal_unit_type != pTwo->nal_unit_type) {
        if ((NAL_UT_IDR_SLICE == pOne->nal_unit_type) || (NAL_UT_IDR_SLICE == pTwo->nal_unit_type))
            return false;
    }
    else if (NAL_UT_IDR_SLICE == pOne->nal_unit_type) {
        if (pOne->idr_pic_id != pTwo->idr_pic_id)
            return false;
    }

    return true;
}

mfxStatus AVC_Spl::AddSlice(AVCSlice* pSlice) {
    m_pLastSlice = 0;

    if (!pSlice) {
        // complete current frame info
        return MFX_ERR_NONE;
    }

    if (m_currentInfo) {
        AVCSlice* pFirstFrameSlice = m_currentInfo->m_slice;

        if (pFirstFrameSlice && (false == IsSlicesOfOneAU(pFirstFrameSlice->GetSliceHeader(),
                                                          pSlice->GetSliceHeader()))) {
            // complete frame
            if (pSlice->IsField()) {
                if (IsFieldOfOneFrame(m_currentInfo,
                                      pFirstFrameSlice->GetSliceHeader(),
                                      pSlice->GetSliceHeader())) {
                    m_currentInfo->m_index = 1;
                    m_currentInfo->m_slice = pSlice;
                }
                else {
                    m_currentInfo->m_index = 0;
                    m_pLastSlice           = pSlice;
                    return MFX_ERR_NONE;
                }
            }
            else {
                m_currentInfo->m_index = 0;
                m_pLastSlice           = pSlice;
                return MFX_ERR_NONE;
            }
        }
    }
    else {
        m_currentInfo = GetFreeFrame();
        if (!m_currentInfo) {
            m_pLastSlice = pSlice;
            return MFX_ERR_NOT_ENOUGH_BUFFER;
        }
        m_currentInfo->m_index = 0;
    }

    if (!m_currentInfo->m_slice)
        m_currentInfo->m_slice = pSlice;

    return MFX_ERR_MORE_DATA;
}

mfxStatus AVC_Spl::AddNalUnit(mfxBitstream* nalUnit) {
    static mfxU8 start_code_prefix[] = { 0, 0, 1 };

    if (m_frame.DataLength + nalUnit->DataLength + sizeof(start_code_prefix) >= BUFFER_SIZE)
        return MFX_ERR_NOT_ENOUGH_BUFFER;

    MSDK_MEMCPY_BUF(m_frame.Data,
                    m_frame.DataLength,
                    BUFFER_SIZE,
                    start_code_prefix,
                    sizeof(start_code_prefix));
    MSDK_MEMCPY_BUF(m_frame.Data,
                    m_frame.DataLength + sizeof(start_code_prefix),
                    BUFFER_SIZE,
                    nalUnit->Data + nalUnit->DataOffset,
                    nalUnit->DataLength);

    m_frame.DataLength += (mfxU32)(nalUnit->DataLength + sizeof(start_code_prefix));

    return MFX_ERR_NONE;
}

mfxStatus AVC_Spl::AddSliceNalUnit(mfxBitstream* nalUnit, AVCSlice* slice) {
    static mfxU8 start_code_prefix[] = { 0, 0, 1 };

    mfxU32 sliceLength = (mfxU32)(nalUnit->DataLength + sizeof(start_code_prefix));

    if (m_frame.DataLength + sliceLength >= BUFFER_SIZE)
        return MFX_ERR_NOT_ENOUGH_BUFFER;

    MSDK_MEMCPY_BUF(m_frame.Data,
                    m_frame.DataLength,
                    BUFFER_SIZE,
                    start_code_prefix,
                    sizeof(start_code_prefix));
    MSDK_MEMCPY_BUF(m_frame.Data,
                    m_frame.DataLength + sizeof(start_code_prefix),
                    BUFFER_SIZE,
                    nalUnit->Data + nalUnit->DataOffset,
                    nalUnit->DataLength);

    if (!m_frame.SliceNum) {
        m_frame.TimeStamp = nalUnit->TimeStamp;
    }

    m_frame.SliceNum++;

    if (m_slices.size() <= m_frame.SliceNum) {
        m_slices.resize(m_frame.SliceNum + 10);
        m_frame.Slice = &m_slices[0];
    }

    SliceSplitterInfo& newSlice = m_slices[m_frame.SliceNum - 1];

    AVCHeadersBitstream* bs = slice->GetBitStream();

    newSlice.HeaderLength = (mfxU32)bs->BytesDecoded();

    // add number of 003 sequence to HeaderLength
    for (mfxU8* ptr = nalUnit->Data + sizeof(start_code_prefix);
         ptr < nalUnit->Data + sizeof(start_code_prefix) + newSlice.HeaderLength;
         ptr++) {
        if (ptr[0] == 0 && ptr[1] == 0 && ptr[2] == 3) {
            newSlice.HeaderLength++;
        }
    }

    newSlice.HeaderLength += sizeof(start_code_prefix) + 1;

    newSlice.DataLength = sliceLength;
    newSlice.DataOffset = m_frame.DataLength;
    if (IS_I_SLICE(slice->GetSliceHeader()->slice_type))
        newSlice.SliceType = TYPE_I;
    else if (IS_P_SLICE(slice->GetSliceHeader()->slice_type))
        newSlice.SliceType = TYPE_P;
    else if (IS_B_SLICE(slice->GetSliceHeader()->slice_type))
        newSlice.SliceType = TYPE_B;

    m_frame.DataLength += sliceLength;

    if (!m_currentInfo->m_index)
        m_frame.FirstFieldSliceNum++;

    return MFX_ERR_NONE;
}

mfxStatus AVC_Spl::ProcessNalUnit(mfxI32 nalType, mfxBitstream* nalUnit) {
    if (!nalUnit)
        return MFX_ERR_MORE_DATA;

    switch (nalType) {
        case NAL_UT_IDR_SLICE:
        case NAL_UT_SLICE:
        case NAL_UT_CODED_SLICE_EXTENSION: {
            AVCSlice* pSlice = DecodeSliceHeader(nalUnit);
            if (pSlice) {
                mfxStatus sts = AddSlice(pSlice);
                if (sts == MFX_ERR_NOT_ENOUGH_BUFFER) {
                    return sts;
                }

                if (!m_pLastSlice) {
                    AddSliceNalUnit(nalUnit, pSlice);
                }
                else {
                    m_lastNalUnit = nalUnit;
                }

                if (sts == MFX_ERR_NONE) {
                    return sts;
                }
            }
        } break;

        case NAL_UT_SPS:
        case NAL_UT_PPS:
        case NAL_UT_SPS_EX:
        case NAL_UNIT_SUBSET_SPS:
        case NAL_UNIT_PREFIX:
            DecodeHeader(nalUnit);
            AddNalUnit(nalUnit);
            break;

        case NAL_UT_SEI:
            DecodeSEI(nalUnit);
            AddNalUnit(nalUnit);
            break;
        case NAL_UT_AUD:
            AddNalUnit(nalUnit);
            break;

        case NAL_UT_DPA:
        case NAL_UT_DPB:
        case NAL_UT_DPC:
        case NAL_UT_FD:
        case NAL_UT_UNSPECIFIED:
            break;

        case NAL_END_OF_STREAM:
        case NAL_END_OF_SEQ: {
            AddNalUnit(nalUnit);
        } break;

        default:
            break;
    };

    return MFX_ERR_MORE_DATA;
}

mfxStatus AVC_Spl::GetFrame(mfxBitstream* bs_in, FrameSplitterInfo** frame) {
    *frame = 0;

    do {
        if (m_pLastSlice) {
            AVCSlice* pSlice = m_pLastSlice;
            mfxStatus sts    = AddSlice(pSlice);
            if (!m_lastNalUnit) {
                printf("ERROR: m_lastNalUnit=NULL\n");
                return MFX_ERR_NULL_PTR;
            }
            AddSliceNalUnit(m_lastNalUnit, pSlice);
            m_lastNalUnit = 0;
            if (sts == MFX_ERR_NONE)
                return MFX_ERR_NONE;
        }

        mfxBitstream* destination = NULL;
        mfxI32 nalType            = m_pNALSplitter->GetNalUnits(bs_in, destination);
        mfxStatus sts             = ProcessNalUnit(nalType, destination);

        if (sts == MFX_ERR_NONE || (!bs_in && m_frame.SliceNum)) {
            m_currentInfo = 0;
            *frame        = &m_frame;
            return MFX_ERR_NONE;
        }

    } while (bs_in && bs_in->DataLength > MINIMAL_DATA_SIZE);

    return MFX_ERR_MORE_DATA;
}

AVCSlice::AVCSlice() {
    Reset();
}

void AVCSlice::Reset() {
    m_picParamSet      = 0;
    m_seqParamSet      = 0;
    m_seqParamSetMvcEx = 0;
    m_seqParamSetEx    = 0;
    m_dTime            = 0;
    memset(&m_sliceHeader, 0, sizeof(m_sliceHeader));
}

AVCSliceHeader* AVCSlice::GetSliceHeader() {
    return &m_sliceHeader;
}

mfxI32 AVCSlice::RetrievePicParamSetNumber(mfxU8* pSource, mfxU32 nSourceSize) {
    if (!nSourceSize)
        return -1;

    m_bitStream.Reset(pSource, nSourceSize);

    mfxStatus umcRes = MFX_ERR_NONE;

    try {
        umcRes = m_bitStream.GetNALUnitType(m_sliceHeader.nal_unit_type, m_sliceHeader.nal_ref_idc);
        if (MFX_ERR_NONE != umcRes)
            return false;

        // decode first part of slice header
        umcRes = m_bitStream.GetSliceHeaderPart1(&m_sliceHeader);
        if (MFX_ERR_NONE != umcRes)
            return -1;
    }
    catch (...) {
        return -1;
    }

    return m_sliceHeader.pic_parameter_set_id;
}

bool AVCSlice::DecodeHeader(mfxU8* pSource, mfxU32 nSourceSize) {
    m_bitStream.Reset(pSource, nSourceSize);

    if (!nSourceSize)
        return false;

    mfxStatus umcRes = MFX_ERR_NONE;
    // Locals for additional slice data to be read into, the data
    // was read and saved from the first slice header of the picture,
    // is not supposed to change within the picture, so can be
    // discarded when read again here.
    try {
        memset(&m_sliceHeader, 0, sizeof(m_sliceHeader));

        umcRes = m_bitStream.GetNALUnitType(m_sliceHeader.nal_unit_type, m_sliceHeader.nal_ref_idc);
        if (MFX_ERR_NONE != umcRes)
            return false;

        // decode first part of slice header
        umcRes = m_bitStream.GetSliceHeaderPart1(&m_sliceHeader);
        if (MFX_ERR_NONE != umcRes)
            return false;

        // decode second part of slice header
        umcRes = m_bitStream.GetSliceHeaderPart2(&m_sliceHeader, m_picParamSet, m_seqParamSet);
        if (MFX_ERR_NONE != umcRes)
            return false;

        PredWeightTable m_PredWeight[2][MAX_NUM_REF_FRAMES];
        RefPicListReorderInfo ReorderInfoL0;
        RefPicListReorderInfo ReorderInfoL1;
        AdaptiveMarkingInfo m_AdaptiveMarkingInfo;

        // decode second part of slice header
        umcRes = m_bitStream.GetSliceHeaderPart3(&m_sliceHeader,
                                                 m_PredWeight[0],
                                                 m_PredWeight[1],
                                                 &ReorderInfoL0,
                                                 &ReorderInfoL1,
                                                 &m_AdaptiveMarkingInfo,
                                                 m_picParamSet,
                                                 m_seqParamSet,
                                                 m_sliceHeader.nal_ref_idc);
        if (MFX_ERR_NONE != umcRes)
            return false;

        if (m_picParamSet->entropy_coding_mode)
            m_bitStream.AlignPointerRight();
    }
    catch (const AVC_exception&) {
        return false;
    }
    catch (...) {
        return false;
    }

    return (MFX_ERR_NONE == umcRes);
}

mfxStatus AVC_Spl::PostProcessing(FrameSplitterInfo* frame, mfxU32 sliceNum) {
    UNREFERENCED_PARAMETER(frame);
    UNREFERENCED_PARAMETER(sliceNum);
    return MFX_ERR_NONE;
}

} // namespace ProtectedLibrary
